JP2022098806A - Terminal block - Google Patents

Abstract

To provide a terminal block that can suppress the deformation of a mating terminal.SOLUTION: A terminal block 10 includes a connection terminal 20 that includes a first surface 22a facing a mating terminal 110, a second surface 22b located on the opposite side of the first surface 22a, and an insertion hole 22c that penetrates the first surface 22a and the second surface 22b, and into which a bolt 150 is inserted, and is electrically connected to the mating terminal 110, a nut 30 that faces the second surface 22b in the axial direction of the insertion hole 22c and can be fastened to the bolt 150, a housing 40 that holds the connection terminal 20 and the nut 30, and an elastic member 70 provided in the portion of the first surface 22a which surrounds the insertion hole 22c.SELECTED DRAWING: Figure 2

Description

The present disclosure relates to a terminal block.

Patent Document 1 discloses a terminal block attached to a vehicle device. The terminal block includes a connection terminal electrically connected to the mating terminal and a nut provided on the opposite side of the mating terminal across the connecting terminal.

The mating terminal and the connecting terminal each have an insertion hole. The mating terminal and the connecting terminal are bolted together by screwing the bolt inserted into the insertion hole of the mating terminal and the insertion hole of the connecting terminal into the nut.

Japanese Unexamined Patent Publication No. 2015-95356

By the way, when the mating terminal and the connecting terminal are connected, a gap due to a manufacturing tolerance or an assembly tolerance may occur between the mating terminal and the connecting terminal. If the mating terminal and the connecting terminal are bolted together in the presence of such a gap, the mating terminal may be deformed in a direction approaching the connecting terminal so as to fill the gap.

An object of the present disclosure is to provide a terminal block capable of suppressing deformation of a mating terminal.

The terminal block of the present disclosure penetrates the first surface facing the mating terminal, the second surface located on the side opposite to the first surface, and the first surface and the second surface, and a bolt is inserted. A connection terminal that has an insertion hole and is electrically connected to the mating terminal, a nut that faces the second surface in the axial direction of the insertion hole and can be fastened to the bolt, the connection terminal, and the connection terminal. A housing for holding a nut and an elastic member provided on a portion of the first surface surrounding the insertion hole are provided.

According to the present disclosure, deformation of the mating terminal can be suppressed.

FIG. 1 is an exploded perspective view showing a terminal block and a connector according to an embodiment. FIG. 2 is a cross-sectional view showing a terminal block and a connector according to an embodiment. FIG. 3 is an exploded perspective view showing a terminal block of one embodiment.

[Explanation of Embodiments of the present disclosure]
First, embodiments of the present disclosure will be listed and described.
[1] The terminal block of the present disclosure penetrates the first surface facing the mating terminal, the second surface located on the side opposite to the first surface, and the first surface and the second surface, and bolts. A connection terminal having an insertion hole into which the bolt is inserted and electrically connected to the mating terminal, a nut facing the second surface in the axial direction of the insertion hole and being able to be fastened to the bolt, and the connection. A housing for holding the terminal and the nut, and an elastic member provided on a portion of the first surface surrounding the insertion hole are provided.

According to the same configuration, in a state where the mating terminal and the connecting terminal are connected, an elastic member is interposed between the mating terminal and the connecting terminal. As a result, when the mating terminal and the connecting terminal are bolted together, the elastic member is deformed, so that the tolerance between the mating terminal and the connecting terminal is absorbed. Therefore, the deformation of the mating terminal can be suppressed.

[2] The elastic member includes a first portion of the first surface that surrounds the insertion hole, a second portion of the second surface that surrounds the insertion hole, and the insertion. It is preferable to have a tubular third portion that is inserted into the hole and connects the first portion and the second portion.

According to the same configuration, the elastic member can be prevented from coming out of the insertion hole of the connection terminal by engaging the second portion connected to the first portion via the third portion with the second surface.
[3] The nut may have a main body portion having a female screw that can be fastened to the bolt, and a protruding portion that protrudes from the main body portion toward the second surface and is in contact with the second surface. preferable.

When the elastic member has the second portion, the nut and the connection terminal may not easily come into contact with each other because the second portion is interposed between the connection terminal and the nut.
In this respect, according to the above configuration, since the nut has a protruding portion, it is possible to secure a contact state between the nut and the connection terminal.

[4] The elastic member preferably has conductivity.
According to the same configuration, a conductive path is formed via the mating terminal, the elastic member, and the connecting terminal. This makes it easier to secure the cross-sectional area of the conductive path as compared with the case where the elastic member has an insulating property.

[5] It is preferable to include the plurality of connection terminals connected to each of the plurality of mating terminals, the plurality of nuts, and the plurality of elastic members.
In a terminal block provided with a plurality of connection terminals, the distance between the mating terminal and the connecting terminal differs for each corresponding mating terminal and connecting terminal. Even in such a configuration, as described above, the tolerance between each of the mating terminals and each of the connecting terminals is absorbed. Therefore, it is possible to suppress the deformation of a plurality of mating terminals.

[6] It is preferable that the connection terminal is to which a high voltage is applied.
In the connection terminal to which a high voltage is applied, it is desirable to increase the thickness of each of the mating terminal and the connecting terminal in order to secure the cross-sectional area of the mating terminal and the connecting terminal serving as a conductive path. However, the larger the thickness of the mating terminal, the less likely it is to be deformed.

According to the above configuration, even when the mating terminal is thick and the mating terminal is not easily deformed, the elastic member can suitably absorb the tolerance between the mating terminal and the connecting terminal. Therefore, it is possible to suitably connect the mating terminal to which a high voltage is applied and the connection terminal.

[Details of Embodiments of the present disclosure]
Specific examples of the terminal block of the present disclosure will be described below with reference to the drawings. In each drawing, for convenience of explanation, a part of the configuration may be exaggerated or simplified. In addition, the dimensional ratio of each part may differ in each drawing. It should be noted that the present disclosure is not limited to these examples, and is indicated by the scope of claims, and is intended to include all modifications within the meaning and scope equivalent to the scope of claims. The term "parallel" or "orthogonal" in the present specification includes not only the case of strictly parallel or orthogonal, but also the case of being substantially parallel or orthogonal within the range in which the action and effect in the present embodiment are exhibited.

(Configuration of terminal block 10)
As shown in FIG. 1, the terminal block 10 is attached to, for example, a case of a vehicle device (not shown). The terminal block 10 is attached to, for example, the case of the motor. For example, a connector 100 provided at one end of a wire harness is connected to the terminal block 10. The terminal block 10 as a whole extends in a direction orthogonal to the connection direction between the terminal block 10 and the connector 100.

In each drawing, the X-axis in the XYZ axes represents the length direction of the terminal block 10, the Y-axis represents the width direction of the terminal block 10 orthogonal to the X-axis, and the Z-axis represents both the X-axis and the Y-axis. It represents the height direction of the terminal bases 10 that are orthogonal to each other. In the following description, for convenience, the direction along the X-axis is referred to as the X-axis direction, the direction along the Y-axis is referred to as the Y-axis direction, and the direction along the Z-axis is referred to as the Z-axis direction.

The terminal block 10 includes a plurality of connection terminals 20 parallel to each other in the X-axis direction, a plurality of nuts 30, a housing 40 holding the plurality of connection terminals 20 and the plurality of nuts 30, and a plurality of elastic members 70. There is. The terminal block 10 includes, for example, six connection terminals 20, a nut 30, and six elastic members 70.

(Configuration of connector 100)
The connector 100 includes a plurality of mating terminals 110 arranged in parallel in the X-axis direction, and a resin connector housing 120 holding the plurality of mating terminals 110. The connector 100 includes, for example, six mating terminals 110. The mating terminal 110 and the connector housing 120 are integrated by, for example, insert molding.

The connector housing 120 has a holding portion 121 for holding a plurality of mating terminals 110, and a tubular portion 122 having a cylindrical shape.
The holding portion 121 projects from the tubular portion 122 to one side in the Y-axis direction.

The tubular portion 122 has an opening 123 that penetrates the tubular portion 122 in the Z-axis direction. The opening 123 has an oval shape that is long in the X-axis direction. An annular sealing member 140 that seals between the tubular portion 122 and the housing 40, which will be described later, is provided on the outer peripheral surface of the tubular portion 122.

As shown in FIG. 2, the plurality of mating terminals 110 project from the holding portion 121 toward the inside of the opening 123.
The mating terminal 110 is formed, for example, in the shape of a flat plate bent like a crank. The mating terminal 110 has an electric wire connecting portion 111 and a terminal connecting portion 112. The mating terminal 110 is a single component in which the electric wire connecting portion 111 and the terminal connecting portion 112 are integrally formed. The mating terminal 110 is made of a metal material such as copper, a copper alloy, aluminum, an aluminum alloy, or stainless steel.

The electric wire 130 is electrically connected to the electric wire connecting portion 111. Here, the electric wire 130 has a core wire 131 and an insulating coating 132 that covers the outer periphery of the core wire 131. The core wire 131 is exposed from the insulating coating 132 at the end of the electric wire 130. A core wire 131 exposed from the insulating coating 132 is connected to the wire connecting portion 111.

The electric wire connecting portion 111 and a part of the electric wire 130 are held by the holding portion 121.
The terminal connection portion 112 is located inside the opening 123. The terminal connection portion 112 is provided with an insertion hole 113 into which a metal bolt 150 is inserted. The insertion hole 113 penetrates the terminal connection portion 112 in the Z-axis direction. The insertion hole 113 has a circular shape.

(Configuration of connection terminal 20)
As shown in FIGS. 2 and 3, the connection terminal 20 is formed in a flat plate shape. The connection terminal 20 has a first extending portion 21 extending in the Z-axis direction and a second extending portion 22 bent from the end of the first extending portion 21 and extending to one side in the Y-axis direction. There is. The connection terminal 20 has an L-shape as a whole, for example. The connection terminal 20 is made of a metal material such as copper, a copper alloy, aluminum, an aluminum alloy, or stainless steel.

A high voltage is applied to the connection terminal 20 of the present embodiment. The “high voltage” in the present specification is the rated voltage of the high voltage electric wire specified in “JASO D624 (2015)”. In the case of AC voltage, the rated voltage is more than 30 V and 600 V or less, and in the case of DC voltage, it is more than 60 V and 750 V or less.

As shown in FIG. 3, an insertion hole 21a into which a bolt (not shown) is inserted is provided at an end portion of the first extending portion 21 opposite to the second extending portion 22. The insertion hole 21a penetrates the first extending portion 21 in the thickness direction, that is, in the Y-axis direction. The first extending portion 21 is electrically connected to a device terminal (not shown) provided inside the device by, for example, a bolt (not shown).

As shown in FIGS. 2 and 3, the second extending portion 22 has a first surface 22a facing the mating terminal 110, a second surface 22b located on the side opposite to the first surface 22a, and a first surface 22a. It has an insertion hole 22c that penetrates the surface 22b and the second surface 22b and into which the bolt 150 is inserted.

The first surface 22a and the second surface 22b are located on opposite sides in the Z-axis direction. The first surface 22a and the second surface 22b each have, for example, planes orthogonal to the Z-axis direction. The first surface 22a and the second surface 22b are, for example, parallel to each other.

The insertion hole 22c penetrates the second extending portion 22 in the plate thickness direction, that is, in the Z-axis direction.
(Structure of housing 40)
As shown in FIGS. 1 and 2, the housing 40 includes a housing body 50 and a plurality of holding members 60 for holding a plurality of connection terminals 20 and a plurality of nuts 30. The housing body 50 and the plurality of holding members 60 are integrally formed of, for example, a resin material.

The housing body 50 has a hood portion 51 that projects toward the connector 100 in the Z-axis direction. The hood portion 51 is provided with an opening 51a forming an oval shape that is long in the X-axis direction. The plurality of connection terminals 20 are exposed from the opening 51a. The tubular portion 122 of the connector 100 is inserted into the hood portion 51 from the Z-axis direction.

As shown in FIG. 3, the holding member 60 is provided integrally with the connection terminal 20 by, for example, insert molding. The holding member 60 holds an end portion of the first extending portion 21 connected to the second extending portion 22.

The holding member 60 has a storage recess 61 in which the nut 30 is housed. The accommodating recess 61 has an upper opening 61a that opens in the same direction as the opening 51a of the hood portion 51 in the Z-axis direction, and a side opening 61b that opens in the direction in which the second extending portion 22 extends in the Y-axis direction. ing. The upper opening 61a is covered by the second extending portion 22 of the connection terminal 20. The insertion hole 22c of the connection terminal 20 and the accommodating recess 61 overlap each other in the Z-axis direction.

The holding member 60 has a relief recess 62 for allowing the tip of the bolt 150 inserted in the insertion hole 22c to escape. The relief recess 62 is provided in a portion of the holding member 60 facing the upper opening 61a of the accommodation recess 61. The relief recess 62 is provided so as to be connected to the accommodating recess 61. The width of the relief recess 62 in the X-axis direction is smaller than the width of the accommodating recess 61 in the X-axis direction. The relief recess 62 opens in the same direction as the side opening 61b of the accommodating recess 61 in the Y-axis direction.

(Structure of nut 30)
As shown in FIGS. 2 and 3, the nut 30 is held by the holding member 60 by being press-fitted into the accommodating recess 61 through the side opening 61b.

The nut 30 has a main body portion 31 forming a square columnar shape and two protruding portions 32 protruding from the main body portion 31 toward the second surface 22b of the connection terminal 20. The nut 30 is made of, for example, a metal material.

The main body 31 has a female screw 31a that can be fastened to the bolt 150. The female screw 31a penetrates the main body 31 in the Z-axis direction. The nut 30 is arranged so that the axis of the female screw 31a is coaxial with the axis of the insertion hole 22c of the connection terminal 20.

The main body portion 31 is provided at a position away from the second extending portion 22 of the connection terminal 20 in the Z-axis direction. That is, a gap is provided between the main body portion 31 and the second extending portion 22.

The protruding portions 32 project from both ends of the main body portion 31 in the X-axis direction. The protruding portion 32 protrudes from the outer peripheral side portion of the female screw 31a in the main body portion 31. The two protrusions 32 extend in the Y-axis direction and are parallel to each other. Each of the protrusions 32 is in contact with the second surface 22b of the connection terminal 20. At the tip of the protrusion 32, for example, a flat surface orthogonal to the Z-axis direction is formed. Therefore, the protrusion 32 and the second surface 22b are in surface contact with each other.

(Structure of elastic member 70)
As shown in FIGS. 2 and 3, the elastic member 70 is attached to the connection terminal 20.
The elastic member 70 has a first portion 71, a second portion 72, and a third portion 73. The elastic member 70 has a through hole 70a that penetrates the first portion 71, the second portion 72, and the third portion 73 and into which the bolt 150 is inserted.

The elastic member 70 is made of, for example, a conductive resin material so as to be elastically deformable. The elastic member 70 is formed by, for example, containing a conductive filler made of metal particles or carbon particles in rubber.

The first portion 71 has a cylindrical shape. The first portion 71 is provided in a portion of the first surface 22a that surrounds the insertion hole 22c. The thickness of the first portion 71 is set to be larger than the tolerance between the mating terminal 110 and the connection terminal 20.

The second portion 72 has a cylindrical shape. The second portion 72 is provided in a portion of the second surface 22b that surrounds the insertion hole 22c. The second portion 72 is arranged in the gap between the main body portion 31 of the nut and the second extending portion 22 of the connection terminal 20. That is, the second portion 72 is arranged between the two protruding portions 32.

The third portion 73 has a cylindrical shape. The third portion 73 is inserted into the insertion hole 22c and connects the inner edges of the first portion 71 and the second portion 72 to each other. The length of the third portion 73 in the Z-axis direction is the same as the plate thickness of the connection terminal 20, that is, the depth of the insertion hole 22c.

The outer diameter of the second portion 72 is smaller than the outer diameter of the first portion 71. The outer diameter of the third portion 73 is smaller than the outer diameter of the first portion 71 and the outer diameter of the second portion 72. The outer diameter of the second portion 72 is larger than the diameter of the insertion hole 22c of the connection terminal 20. The outer diameter of the third portion 73 is substantially the same as the diameter of the insertion hole 22c.

When the elastic member 70 is attached to the connection terminal 20, the elastic member 70 is inserted into the insertion hole 22c while elastically deforming the second portion 72. When the second portion 72 passes through the insertion hole 22c, the second portion 72 elastically returns to its original shape. As a result, the second portion 72 engages with the second surface 22b of the connection terminal 20. In this way, the elastic member 70 is attached to the connection terminal 20.

(Manufacturing method of terminal block 10)
As shown in FIG. 3, in the manufacture of the terminal block 10 of the present embodiment, first, a plurality of primary molded bodies 11 in which the connection terminal 20 and the holding member 60 are integrally formed are formed. After that, the nut 30 is press-fitted into the accommodating recess 61 of the holding member 60, and the elastic member 70 is attached to the insertion hole 22c of the connection terminal 20. Then, the housing main body 50 is formed by secondary molding using a plurality of primary molded bodies 11 provided with the nut 30 and the elastic member 70 as cores. As a result, the plurality of primary molded bodies 11 and the housing main body 50 are integrally formed.

In the press-fitting of the nut 30 and the attachment of the elastic member 70 to the primary molded body 11, the elastic member 70 may be attached to the connection terminal 20 after the nut 30 is press-fitted into the holding member 60, or the elastic member 70 may be attached to the connection terminal 20. The nut 30 may be press-fitted into the holding member 60 after the attachment.

As described above, the second portion 72 of the elastic member 70 is arranged between the two protruding portions 32. Therefore, even when the elastic member 70 is attached to the connection terminal 20, the nut 30 can be press-fitted into the holding member 60.

The operation of this embodiment will be described.
In a state where the mating terminal 110 and the connecting terminal 20 are connected, an elastic member 70 is interposed between the mating terminal 110 and the connecting terminal 20. As a result, when the mating terminal 110 and the connecting terminal 20 are bolted together, the elastic member 70 is deformed, so that the tolerance between the mating terminal 110 and the connecting terminal 20 is absorbed.

Further, in the terminal block 10 provided with the plurality of connection terminals 20, the distance between the mating terminal 110 and the connecting terminal 20 is different for each of the mating terminal 110 and the connecting terminal 20. Even in this case, the tolerance between each of the mating terminals 110 and each of the connecting terminals 20 is absorbed by each of the elastic members 70.

The effect of this embodiment will be described.
(1) The terminal block 10 includes a plurality of connection terminals 20, a plurality of nuts 30, a housing 40, and a plurality of elastic members 70. The connection terminal 20 penetrates the first surface 22a facing the mating terminal 110, the second surface 22b located on the opposite side of the first surface 22a, and the first surface 22a and the second surface 22b, and the bolt 150 is inserted. It has an insertion hole 22c to be inserted. The nut 30 faces the second surface 22b in the Z-axis direction and can be fastened to the bolt 150. The housing 40 holds a plurality of connection terminals 20 and a plurality of nuts 30. The elastic member 70 is provided in a portion of the first surface 22a that surrounds the insertion hole 22c.

According to such a configuration, since the above-mentioned action is obtained, the deformation of the mating terminal 110 can be suppressed.
(2) The elastic member 70 includes a first portion 71 provided in a portion of the first surface 22a surrounding the insertion hole 22c, and a second portion 72 provided in a portion of the second surface 22b surrounding the insertion hole 22c. It has a tubular third portion 73 that is inserted into the insertion hole 22c and connects the first portion 71 and the second portion 72.

According to such a configuration, the elastic member 70 comes out of the insertion hole 22c of the connection terminal 20 by engaging the second portion 72 connected to the first portion 71 via the third portion 73 with the second surface 22b. Can be suppressed.

(3) The nut 30 has a main body portion 31 having a female screw 31a that can be fastened to the bolt 150, and a protruding portion 32 that protrudes from the main body portion 31 toward the second surface 22b and comes into contact with the second surface 22b. ..

When the elastic member 70 has the second portion 72, the nut 30 and the connection terminal 20 may not easily come into contact with each other because the second portion 72 is interposed between the connection terminal 20 and the nut 30.

In this respect, according to the above configuration, since the nut 30 has the protruding portion 32, the contact state between the nut 30 and the connection terminal 20 can be ensured.
(4) The elastic member 70 has conductivity.

According to such a configuration, a conductive path is formed via the mating terminal 110, the elastic member 70, and the connecting terminal 20. This makes it easier to secure the cross-sectional area of the conductive path as compared with the case where the elastic member 70 has an insulating property.

(5) A high voltage is applied to the connection terminal 20.
In the connection terminal 20 to which a high voltage is applied, it is desirable to increase the thickness of each of the mating terminal 110 and the connecting terminal 20 in order to secure the cross-sectional area of the mating terminal 110 and the connecting terminal 20 which are conductive paths. However, the larger the thickness of the mating terminal 110, the less likely it is to be deformed.

According to the above configuration, even when the mating terminal 110 is thick and the mating terminal 110 is not easily deformed, the elastic member 70 can suitably absorb the tolerance between the mating terminal 110 and the connecting terminal 20. Therefore, the mating terminal 110 to which a high voltage is applied and the connection terminal 20 can be suitably connected.

<Change example>
This embodiment can be modified and implemented as follows. The present embodiment and the following modified examples can be implemented in combination with each other within a technically consistent range.

-The connection terminal 20 may be one to which a low voltage is applied.
-The terminal block 10 may be attached to the case of a device such as an inverter, for example.

-The number of connection terminals 20, nuts 30, and elastic members 70 can be changed as appropriate.
The elastic member 70 may be a conductive elastomer containing a conductive filler in a resin material.

-If the elastic member 70 has conductivity, for example, bolts 150 and nuts 30 made of resin or ceramics can be adopted.
-The elastic member 70 may have an insulating property. Even with such a configuration, since the nut 30 is in contact with the connection terminal 20, a conductive path is formed via the mating terminal 110, the bolt 150, the nut 30, and the connection terminal 20. As a result, the mating terminal 110 and the connection terminal 20 are electrically connected.

The nut 30 may have one protrusion 32 or may have three or more protrusions 32. Further, the protruding portion 32 may surround the outer circumference of the female screw 31a over the entire circumference. In this case, the elastic member 70 may be attached to the connection terminal 20 after the nut 30 is press-fitted into the primary molded body 11.

The connection terminal 20 may have a conductive protrusion that protrudes toward the nut 30 and comes into contact with the nut 30. The protrusion can be attached to the connection terminal 20 by welding, for example. In this case, the protrusion 32 can be omitted from the nut 30.

-Only the second portion 72 or both the second portion 72 and the third portion 73 can be omitted from the elastic member 70. In such a configuration, the elastic member 70 is sandwiched between the mating terminal 110 and the connection terminal 20, so that the elastic member 70 is fixed between them. Further, in such a configuration, the protruding portion 32 can be omitted from the nut 30. In this case, the main body 31 of the nut 30 comes into contact with the second surface 22b of the connection terminal 20.

The elastic member 70 may have a slit extending over the entire elastic member 70 in the Z-axis direction. In this case, the elastic member 70 can be elastically deformed so that the distance between the slits becomes small, so that the diameter of the elastic member 70 can be reduced, so that the work of inserting the elastic member 70 into the insertion hole 22c of the connection terminal 20 becomes easy.

The elastic member 70 may be composed of a plurality of divided bodies obtained by dividing the elastic member 70 of the above embodiment along the Z-axis direction. In this case, the work of inserting the elastic member 70 into the insertion hole 22c of the connection terminal 20 becomes easy.

10 Terminal block 11 Primary molded body 20 Connection terminal 21 1st extending part 21a Insert hole 22 2nd extending part 22a 1st surface 22b 2nd surface 22c Insert hole 30 Nut 31 Main body 31a Female screw 32 Protruding part 40 Housing 50 Housing Main body 51 Hood part 51a Opening 60 Holding member 61 Storage recess 61a Top opening 61b Side opening 62 Relief recess 70 Elastic member 70a Through hole 71 1st part 72 2nd part 73 3rd part 100 Connector 110 Mating terminal 111 Wire connection part 112 Terminal connection part 113 Insertion hole 120 Connector housing 121 Holding part 122 Cylindrical part 123 Opening 130 Electric wire 131 Core wire 132 Insulation coating 140 Sealing member 150 Bolt

Claims (6)

It has a first surface facing the mating terminal, a second surface located on the opposite side of the first surface, and an insertion hole that penetrates the first surface and the second surface and into which a bolt is inserted. A connection terminal that is electrically connected to the other terminal and
A nut that faces the second surface in the axial direction of the insertion hole and can be fastened to the bolt.
A housing that holds the connection terminal and the nut,
An elastic member provided on a portion of the first surface surrounding the insertion hole.
Terminal block. The elastic member is inserted into the insertion hole, a first portion of the first surface that surrounds the insertion hole, a second portion of the second surface that surrounds the insertion hole, and an insertion hole. It also has a tubular third portion that connects the first portion and the second portion.
The terminal block according to claim 1. The nut has a main body portion having a female screw that can be fastened to the bolt, and a protruding portion that protrudes from the main body portion toward the second surface and is in contact with the second surface.
The terminal block according to claim 2. The elastic member has conductivity.
The terminal block according to any one of claims 1 to 3. A plurality of said connection terminals connected to each of the plurality of said mating terminals,
With multiple nuts
A plurality of the elastic members,
The terminal block according to any one of claims 1 to 4. A high voltage is applied to the connection terminal.
The terminal block according to any one of claims 1 to 5.

Images